Evaluation of the effect of the feeding regime on the removal of metals and pathogens in microalgae–bacterial systems

Farias, Sarah Lacerda; Ruas, Graziele; Serejo, Mayara Leite; Boncz, Marc Árpád

doi:10.2166/wst.2023.194

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…In particular, the bio-flocculation of microalgae and the subsequent self-settling recovery, among other benefits derived from the synergistic interaction, has attracted serious attention [4,[7][8][9]. In previous studies, the best experimental outcomes regarding removal potential have been reported largely for MAS inoculum ratios of 1:3 [10][11][12], 3:1 [13], 1:5, and 1:2 [14,15], using both high-rate algae pond (HRAP) and photobioreactors (PBRs). The MAS inoculum ratio has been shown to significantly influence pollution removal efficiency in co-culture systems [16].…”

Section: Introductionmentioning

confidence: 99%

Exploration of Microalgae-Activated Sludge Growth Performance in Lab-Scale Photobioreactors under Outdoor Environmental Conditions for Wastewater Biotreatment

James,

Bankole,

Pompei

et al. 2023

Phycology

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Increasing the volume of untreated and inadequately treated municipal wastewater undermines the circular economy potential of wastewater resources, particularly in low-income regions. This present study focused on and evaluated the performance of native microalgae-activated sludge (MAS) growth for tertiary treatment of anaerobically digested wastewater from an up-flow anaerobic sludge blanket (UASB) in an outdoor lab-scale photobioreactor (2.2 L). Three conditions with distinct MAS inoculum concentrations alongside three controls were operated in batch mode for 5 days hydraulic retention time (HRT) at 11.5:12.5 photo-hours. The MAS inoculum concentration influenced the treatment outcome. The best performance was observed when the MAS concentration was 0.10/0.20 g L−1, and the cell density was 1.60 × 107 cells mL−1, total biomass productivity of 0.10 g TSS L−1 d−1, total phosphorus uptake of 85.1%, and total nitrogen uptake of 66.1%. Logarithmic removal (Log-Re) of bacterial pathogens (water quality indicators) showed Log-Re 3.4 for total coliforms (1.37 × 102 CFU 100 mL−1) and 4.7 for Escherichia coli (0.00 × 100 CFU 100 mL−1). The results revealed optimum remediation performance and nutrient recovery potential with appropriate inoculum concentration, in admiration to advancing the science of circular economy.

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Section: Introductionmentioning

confidence: 99%

Exploration of Microalgae-Activated Sludge Growth Performance in Lab-Scale Photobioreactors under Outdoor Environmental Conditions for Wastewater Biotreatment

James,

Bankole,

Pompei

et al. 2023

Phycology

Self Cite

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Use of native microalgae in anaerobic sewage treatment: Lab and pilot-scale approaches

Pompei,

Bolzani,

da Silva

2023

J Appl Phycol

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Exploration of Microalgae-Activated Sludge (Mas) Growth Performance in Lab-Scale Photobioreactor at Outdoor Environmental Condition for Wastewater Biotreatment

James,

Bankole,

Pompei

et al. 2023

Preprint

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Increased volume of untreated and inadequately treated municipal wastewater undermines the circular economy potential of wastewater resources, particularly in low-income region. This present study focused on and evaluated the performance of native microalgae-activated sludge (MAS) growth for tertiary treatment of anaerobically digested wastewater from an upflow anaerobic sludge blanket (UASB) in an outdoor lab-scale photobioreactors (2 L). Seven conditions with distinct inoculum concentrations were operated in batch mode in triplicate for 5-days hydraulic retention time (HRT) at 11.5:12.5 Photo-hours. MAS inoculum concentration influenced treatment outcome. The best performance was observed in MAS concentration 0.10/0.20 g L-1, with cell density count (2.03 x 107 cells mL-1), biomass productivity 0.125 g TSS L-1 d-1 and total phosphorus uptake (85.07%), total nitrogen uptake (66.14%). Logarithmic removal (Log-Re) of bacterial pathogens (water quality indicators) showed Log-Re ((3.4 for total coliforms (1.37E+02 CFU 100 mL-1) and 4.7 for Escherichia coli (0.00E+00 CFU 100 mL-1)). Results revealed optimum remediation performance and nutrients’ recovery potential with appropriate inoculum concentration, in admiration to advancing the science of circular economy.

show abstract

Evaluation of the effect of the feeding regime on the removal of metals and pathogens in microalgae–bacterial systems

Cited by 3 publications

References 22 publications

Exploration of Microalgae-Activated Sludge Growth Performance in Lab-Scale Photobioreactors under Outdoor Environmental Conditions for Wastewater Biotreatment

Exploration of Microalgae-Activated Sludge Growth Performance in Lab-Scale Photobioreactors under Outdoor Environmental Conditions for Wastewater Biotreatment

Use of native microalgae in anaerobic sewage treatment: Lab and pilot-scale approaches

Exploration of Microalgae-Activated Sludge (Mas) Growth Performance in Lab-Scale Photobioreactor at Outdoor Environmental Condition for Wastewater Biotreatment

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